Department of Neurosurgery, Nagasaki Harbor Medical Center, 6-39 Shinchi-machi, Nagasaki 850-8555, Japan.
Department of Neurology and Strokology, Nagasaki Harbor Medical Center, 6-39 Shinchi-machi, Nagasaki 850-8555, Japan.
J Clin Neurosci. 2020 Oct;80:250-256. doi: 10.1016/j.jocn.2020.08.011. Epub 2020 Sep 7.
Patients with intracranial arteriovenous shunt(s) have a risk of intracerebral hemorrhage (ICH). We investigated the signal intensity of draining veins on susceptibility-weighted imaging (SWI) and the status of venous drainage shown by digital subtraction angiography (DSA). We then evaluated whether the signal intensity of draining veins on SWI is related to normal venous flow (NVF) and/or ICH. We analyzed SWI and DSA in 10 consecutive patients with intracranial arteriovenous shunt(s). Opacification of draining veins in the normal venous phase by DSA was judged as NVF. We evaluated the relationship between the intensity of draining veins on SWI and the presence of NVF before and after treatment. The relationship between the intensity of draining veins on SWI and the presence of ICH surrounding the draining veins was also evaluated. Of 10 patients with untreated arteriovenous shunt(s), two had arteriovenous malformation and eight had a dural arteriovenous fistula with cortical venous reflux. We analyzed 26 draining veins before treatment. In preoperative analysis, draining veins with hypointensity were significantly more likely to show NVF than were draining veins with isointensity or hyperintensity (45.5% vs. 0.0%, P = 0.007). While 69.2% of the areas surrounding draining veins with isointensity or hyperintensity showed ICH, no veins with hypointensity showed ICH (P = 0.011, odds ratio 0.036; 95% confidence interval 0.0017-0.80). In conclusion, draining veins with hypointensity on SWI may contain NVF, despite arteriovenous shunting. The areas surrounding these veins might have a lower risk of ICH because of less venous hypertension.
颅内动静脉分流(AVM)患者有发生颅内出血(ICH)的风险。我们研究了磁敏感加权成像(SWI)上引流静脉的信号强度和数字减影血管造影(DSA)显示的静脉引流情况。然后,我们评估了 SWI 上引流静脉的信号强度是否与正常静脉血流(NVF)和/或 ICH 相关。我们对 10 例连续的颅内动静脉分流(AVM)患者的 SWI 和 DSA 进行了分析。DSA 上正常静脉期引流静脉的显影被判断为 NVF。我们评估了 SWI 上引流静脉强度与治疗前后 NVF 存在的关系。还评估了 SWI 上引流静脉强度与引流静脉周围 ICH 存在的关系。在未经治疗的动静脉分流(AVM)患者中,有 2 例动静脉畸形,8 例硬脑膜动静脉瘘伴皮质静脉反流。我们在治疗前分析了 26 条引流静脉。在术前分析中,与等信号或高信号的引流静脉相比,低信号的引流静脉更有可能显示 NVF(45.5% vs. 0.0%,P=0.007)。虽然等信号或高信号引流静脉周围 69.2%的区域有 ICH,但没有低信号的静脉有 ICH(P=0.011,比值比 0.036;95%置信区间 0.0017-0.80)。总之,尽管存在动静脉分流,SWI 上低信号的引流静脉可能含有 NVF。由于静脉高压较低,这些静脉周围的区域可能具有较低的 ICH 风险。
